CN114941419B - Assembled floor system and installation process thereof - Google Patents

Abstract

The application discloses assembled floor system and installation technique thereof relates to the field of floor installation technique, and wherein, assembled floor system includes the skeleton, sets up backup pad on the skeleton and sets up the floor in the backup pad, and the caulking groove has all been seted up to the side that two piece adjacent floors are close to each other, every all be provided with the elastic component in the caulking groove, two adjacent be provided with the connecting plate between the floor, two adjacent are embedded respectively to the both sides that the connecting plate is relative in the caulking groove of floor, the degree of depth of caulking groove is greater than the width of connecting plate. The method has the effects of facilitating reinstallation of the arched floor and reducing maintenance difficulty of the floor system.

Description

Assembled floor system and installation process thereof

Technical Field

The present application relates to the field of floor installation technology, and in particular, to a fabricated floor system and an installation process thereof.

Background

The assembly decoration refers to a decoration mode of combining and installing components produced by factories on site, and mainly comprises a dry type building (ground), an integrated kitchen, an integrated toilet, a pipeline and a structure which are separated.

In the related art, an assembled floor system comprises a supporting framework, a supporting plate fixedly installed on the supporting framework and a wood floor adhered and arranged on the supporting plate, wherein embedded strips and embedded grooves which are matched with each other are respectively arranged at positions, close to each other, of any two adjacent wood floors, so that the stability of the wood floor after installation is ensured.

With respect to the related art as described above, the inventors believe that, when the wooden floor is installed, adjacent wooden floors are often closely abutted in order to ensure the compactness of the entire floor system. However, in a wet environment, the wood flooring tends to expand, and some of the wood flooring tends to arch and arch upwards. When the wooden floor in the middle of the flooring system is arched, such as reinstalling the wooden floors in the flooring system again, the embedded strips of the wooden floor itself or the embedded strips of the adjacent wooden floors block the embedding thereof, and it is difficult to reinstall and incorporate the wooden floors into the flooring system, thereby making the maintenance of the flooring system difficult, and there is a need for improvement.

Disclosure of Invention

In order to improve the situation that the wood floor in the middle of the floor system is difficult to install again and incorporate the floor system after being arched out in the related art, the present application provides a fabricated floor system and an installation process thereof.

In a first aspect, the present application provides a fabricated flooring system, which adopts the following technical scheme:

the utility model provides an assembled floor system, includes the skeleton, sets up backup pad on the skeleton and set up the floor in the backup pad, and the caulking groove has all been seted up to the side that two piece adjacent floors are close to each other, every all be provided with the elastic component in the caulking groove, two adjacent be provided with the connecting plate between the floor, two adjacent are embedded respectively to the both sides that the connecting plate is relative in the caulking groove of floor, the degree of depth of caulking groove is greater than the width of connecting plate.

By adopting the technical scheme, when the wood floor is arched out of the floor system and is installed again, a worker can firstly incline a hard sheet between the floor to be installed and other adjacent floors, guide the floor to be installed, then press the floor to be installed downwards, change the inclination of the hard sheet into the vertical direction along with the downward pressing of the floor to be installed, and press the connecting plate to enable the connecting plate to enter the caulking groove of the floor to be installed or other adjacent floors; when the floors to be installed are placed at the corresponding installation positions, the hard sheets are pulled out, the elastic pieces push the connecting plates, and the two opposite sides of the connecting plates are respectively embedded into the caulking grooves of the two adjacent floors. In this way, the reinstallation of the raised floor is facilitated and the difficulty of maintenance of the floor system is reduced.

Preferably, the elastic piece is a rubber strip, and the length direction of the rubber strip is parallel to the length direction of the caulking groove.

By adopting the technical scheme, the rubber strip is difficult to corrode, can keep elasticity for a long time, can keep the support to the connection plate for a long time, and is favorable for guaranteeing the stability of the floor system.

Preferably, the periphery side butt room wall of skeleton, the floor has arranged a plurality of in proper order and has covered whole room on the skeleton, the vertical bounding wall that is fixed with in periphery side edge position of skeleton upside, the inboard of bounding wall upside is fixed and is provided with the baffle, be formed with the stable inslot between baffle, bounding wall and the skeleton edge three, be located skeleton edge the floor is close to the one side embedding stable inslot of stable inslot.

By adopting the technical scheme, the blocking plate blocks the floor at the edge of the framework from rising upwards, thereby being beneficial to improving the stability of the floor system.

Preferably, the skeleton includes the installing frame, installing frame's below is provided with adjusting screw and foot stall, adjusting screw is vertical setting, adjusting screw's upper end is fixed in on the installing frame, adjusting screw's lower extreme screw thread screw in foot stall, and adjusting screw is provided with a plurality ofly on installing frame, foot stall and adjusting screw one-to-one.

Through adopting above-mentioned technical scheme, in the practical application, the staff can rotate the foot stall relative adjusting screw to adjust the levelness and the height of installing frame.

Preferably, the skeleton comprises a plurality of mounting frames, and the adjusting screw and the foot seat are both arranged corresponding to the mounting frames; the mounting frames are provided with mounting grooves, the supporting plates are embedded into the mounting grooves, a fixing plate is arranged between any two adjacent mounting frames, and two sides of the fixing plate are respectively and fixedly connected with the edge positions of the two adjacent mounting frames;

the edge position that the backup pad is close to the fixed plate is provided with the spread groove, one side that the fixed plate is close to the backup pad extends and imbeds in the spread groove, just the side of fixed plate and the last side of backup pad are the same height.

Through adopting above-mentioned technical scheme, on the one hand, connect two adjacent installing frame by the fixed plate, help guaranteeing the stability of skeleton. On the other hand, the supporting plate is pressed by the fixing plate, so that the stability of the supporting plate on the framework is guaranteed.

In a second aspect, the present application provides a mounting process for a fabricated flooring system, which adopts the following technical scheme:

a mounting process of a fabricated floor system comprises the following steps,

splicing the frameworks, namely splicing a plurality of mounting frames, and adjusting the height of a single mounting frame through an adjusting screw and a foot seat so as to form the framework;

the support plate is arranged on the upper side of the framework, and is fixed on the framework;

floor assembly, namely paving the floors inwards from the peripheral edges of the framework in sequence, and embedding one side, close to the stabilizing groove, of the floor at the edge of the framework into the stabilizing groove; when the installation process of the floor to be installed is hindered by the connecting plates between the adjacent installed floors, the corresponding connecting plates can be pressed into the floors to be installed or the caulking grooves of the installed floors, then the floors to be installed are placed at the corresponding installation positions, and then the elastic pieces push the connecting plates, so that the two opposite sides of the connecting plates are respectively embedded into the caulking grooves of the two adjacent floors.

By adopting the technical scheme, the assembly type floor system is installed, the reinstallation of the arched floor is facilitated, and the maintenance difficulty of the floor system is reduced.

Preferably, in the step of splicing the frameworks, a positioning device is firstly arranged on a wall body of a room, and the positioning device is used for positioning the height adjustment of the installation frame;

the positioning device comprises two parallel mounting rails arranged at intervals and a connecting rod connected between the two mounting rails, wherein the two mounting rails are horizontally arranged, sliding blocks are respectively arranged at two ends of the connecting rod, and the two sliding blocks are respectively connected to the two mounting rails in a sliding manner;

a positioning line is further arranged between the two sliding blocks, two ends of the positioning line are respectively fixed on the two sliding blocks, and the height of the positioning line is lower than that of the connecting rod;

when the mounting frame is positioned, leveling and heightening are carried out on the two mounting rails, so that the positioning lines are horizontal, the height of the positioning lines is adjusted to be the design height of the upper side of the mounting frame, and the two mounting rails are respectively mounted on two opposite side walls of a room; then, the sliding block is slid, and the height adjustment of each mounting frame is positioned by the positioning line.

Through adopting above-mentioned technical scheme, in positioner's installation, the staff can adopt scale and spirit level etc. to assist to guarantee the level of installing rail and locating wire. In practical application, the positioning wire is used for positioning the height adjustment of each installation frame, so that the installation of the installation frames is facilitated, and the consistency of the heights of the installation frames is guaranteed.

Preferably, two the mounting rail all is connected with and is used for installing the mounting bracket on the room wall, every the mounting rail slides along vertical direction respectively and sets up on corresponding mounting bracket, two all be provided with on the mounting bracket and be used for driving the drive assembly that the mounting rail slided.

By adopting the technical scheme, the two mounting rails are driven by the driving assembly to slide, so that the height of the positioning line is convenient to adjust. When the floors are installed on the framework, the driving assembly can be used for heightening the positioning lines, and the positioning lines are positioned at the designed height of the floors in the floor system, so that the installation height of each floor is positioned.

Preferably, the driving assembly comprises a screw rod, the screw rod is vertically arranged and rotatably arranged on the mounting frame, and the screw rod penetrates through the mounting rail and is in threaded connection with the mounting rail.

Through adopting above-mentioned technical scheme, rotate the lead screw and can adjust the height of installing rail and locating line, help guaranteeing the convenience of installing rail and locating line altitude mixture control.

Preferably, the connecting rod is a telescopic rod, and two ends of the telescopic rod are respectively and spherically hinged to the two sliding blocks.

Through adopting above-mentioned technical scheme, after the installation rail height variation of arbitrary side, the telescopic link can carry out the suitability action, reduces the condition emergence that the telescopic link was crooked in the installation rail was adjusted to help promoting the convenience to the installation rail is adjusted.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the connecting plates are clamped between two adjacent floors, the floors are provided with caulking grooves for the connecting plates to completely enter, and elastic pieces for supporting the connecting plates to be clamped between the two adjacent floors are arranged in the caulking grooves, so that reinstallation of the arched floors is facilitated, and maintenance difficulty of a floor system is reduced;

2. the floor at the edge of the blocking framework is blocked by the blocking plates on the coaming to be arched upwards, and the two installation frames are fixedly connected by the fixing plates, and the supporting plates are fixed on the installation frames, so that the stability of the floor system is greatly improved.

Drawings

FIG. 1 is an isometric view of an overall structure of a modular flooring system embodying the present embodiment;

FIG. 2 is a schematic view of a partial explosion of the present embodiment, which mainly shows the mounting frame and the support leg structure;

FIG. 3 is a schematic view showing the structure of the floor according to the present embodiment;

FIG. 4 is a schematic view of the present embodiment mainly showing the installation of the floor;

fig. 5 is a schematic diagram mainly showing the structure of the positioning device in this embodiment.

Reference numerals: 1. a skeleton; 11. a mounting frame; 111. a mounting groove; 12. supporting feet; 121. adjusting a screw; 122. a foot stand; 2. a support plate; 21. a connecting groove; 3. a floor; 31. a caulking groove; 32. an elastic member; 33. a connecting plate; 4. a fixing plate; 5. coaming plate; 51. a blocking plate; 52. a stabilizing groove; 6. a positioning device; 61. a mounting frame; 62. a mounting rail; 63. a sliding block; 7. a drive assembly; 71. a screw rod; 72. a hand wheel; 8. a connecting rod; 81. an outer cylinder; 811. a level gauge; 82. an inner rod; 9. a positioning line; 100. a hard sheet.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a fabricated floor system.

Examples:

referring to fig. 1 and 2, the assembled flooring system includes a frame 1, a support plate 2 fixed to the frame 1, and a floor 3 laid on the support plate 2. The circumference side butt in room all around of skeleton 1, backup pad 2 are provided with a plurality of, and all backup pads 2 are laid in proper order on skeleton 1 and are used for supporting floor 3, and likewise, floor 3 is provided with a plurality of, and all floors 3 are laid in proper order and cover in the upside of skeleton 1 and backup pad 2 entirely. In this embodiment, the number of the support plates 2 and the number of the floors 3 are not limited, and the specific number is determined according to the area of the room, the single areas of the customized support plates 2 and floors 3, and the completed construction is just required.

Specifically, the skeleton 1 includes a plurality of mounting frames 11 and supporting legs 12 correspondingly disposed on the lower side of the mounting frames 11, and the specific number of the mounting frames 11 is determined according to the room area and the custom size of the mounting frames 11, which is not specifically limited in this embodiment.

The connection and structure between each mounting frame 11 and the support leg 12 are identical, and one set of mounting frames 11 and the corresponding support leg 12 will now be described as an example.

The supporting leg 12 comprises an adjusting screw 121 and a foot seat 122, the adjusting screw 121 is vertical, the upper end of the adjusting screw 121 is fixed on the lower side of the mounting frame 11, and the lower end of the adjusting screw 121 is screwed into the foot seat 122. The mounting frame 11 is in a rectangular frame shape horizontally arranged, and the supporting legs 12 are respectively arranged at four included angles on the lower side surface of the mounting frame 11. When the framework 1 is spliced, a worker sequentially arranges each mounting frame 11, rotates the foot mount 122, and adjusts the relative position between the foot mount 122 and the adjusting screw 121, thereby adjusting the height and levelness of the mounting frame 11.

Referring to fig. 2 and 3, the upper side of any one of the mounting frames 11 is provided with a mounting groove 111, the support plate 2 is correspondingly embedded in the mounting groove 111, and in addition to this embodiment, the mounting frame 11 located at the lower side of the mounting groove 111 may be provided with a reinforcing rib for reinforcing the strength of the mounting frame 11 and supporting the support plate 2. Meanwhile, a fixing plate 4 is arranged between any two adjacent mounting frames 11, and two sides of the fixing plate 4 are fastened on the corresponding mounting frames 11 through screw locks. The edge position of any one supporting plate 2 close to the fixing plate 4 is provided with a connecting groove 21, the fixing plate 4 extends to the supporting plate 2 and is embedded into the connecting groove 21, and the upper side surface of the fixing plate 4 is equal to the upper side surface of the supporting plate 2 in height.

Next, with continued reference to fig. 2 and 3, the peripheral edge position of the upper side surface of the skeleton 1 is vertically fixed with the coaming 5, the coaming 5 is arranged in sections and respectively fixed on the corresponding mounting frames 11, the side direction of the coaming 5 is internally fixedly provided with the blocking plate 51, the blocking plate 51 is arranged in sections corresponding to the coaming 5, and a stabilizing groove 52 is formed among the blocking plate 51, the coaming 5 and the edges of the skeleton 1, and one side, close to the stabilizing groove 52, of the floor 3 at the edge of the skeleton 1 is embedded into the stabilizing groove 52. In actual construction, the skirting line structure can be installed at the upper side of the wall body positioned on the blocking plate 51, the skirting line structure is supported in an auxiliary mode by the blocking plate 51, and meanwhile the blocking plate 51 is covered by the skirting line structure.

Meanwhile, the side surfaces of any two adjacent floors 3 close to each other are provided with caulking grooves 31, and the length direction of each caulking groove 31 is parallel to the length direction of the corresponding side surface of each floor 3. The elastic member 32 is embedded in the bottom of any embedded groove 31, and in this embodiment, the elastic member 32 is a rubber strip, and the length direction of the rubber strip is parallel to the length direction of the embedded groove 31. Of course, the elastic member 32 may be a spring or other elastic object. A connecting plate 33 is arranged between any two adjacent floors 3, two opposite sides of the connecting plate 33 are respectively embedded into the caulking grooves 31 of the two adjacent floors 3, and the depth of each caulking groove 31 is larger than twice the width of the connecting plate 33, in the embodiment, the depth of each caulking groove 31 is preferably three times the width of the connecting plate 33, and the width of each rubber strip is 2 times the width of the connecting plate 33. In actual construction, the floor 3 can be adhered to the framework 1 or the supporting plate 2 through glue, so that the stability of the floor 3 is further improved.

The implementation principle of the assembled floor system in the embodiment of the application is as follows: in actual installation, the staff first splices the installation frame 11 and rotates the supporting legs 12 to adjust the height of the installation frame 11, thereby completing the splicing of the framework 1. Then, the support plate 2 is placed in the mounting groove 111, and the fixing plate 4 is installed between the adjacent two mounting frames 11, and the fixing plate 4 compresses the support plate 2. Subsequently, the staff can perform the installation of the floor 3, and the floor 3 is firstly installed at the peripheral side edge of the framework 1 and then sequentially arranged inwards according to the mode from outside to inside.

It should be noted that when the installation of the floor 3 to be installed is hindered by the connection plate 33 between the installed floors 3 adjacent thereto, the hard sheet 100 (see fig. 4) may be first put obliquely between the installed floors 3 and the floor 3 to be installed, the floor 3 to be installed is guided, and then the floor 3 to be installed is pressed down, and as the floor 3 to be installed is pressed down, the hard sheet 100 will be changed from oblique to vertical and the connection plate 33 is pressed so that the connection plate 33 enters the installed floor 3 or the caulking groove 31 on the floor 3 to be installed; when the floors 3 to be installed are placed in the corresponding installation positions, the hard sheet 100 is pulled out, the elastic piece 32 pushes the connecting plate 33, and the two opposite sides of the connecting plate 33 are respectively embedded into the caulking grooves 31 of the two adjacent floors 3.

It is also possible to press the connection plate 33 into the caulking groove 31 of the floor panel 3 to be installed first, and to maintain the state of the connection plate 33 in the caulking groove 31, and then to install the floor panel 3 to be installed. After the floor 3 to be installed enters the installation position, the elastic piece 32 on the floor 3 to be installed pushes the connecting plate 33, and two opposite sides of the connecting plate 33 are respectively embedded into the caulking grooves 31 of two adjacent floors 3.

Also, when the floor panel 3 is arched by the expansion due to moisture, the arched floor panel 3 can be reinstalled in the above-described manner.

The embodiment of the application also discloses an installation process of the assembled floor system.

A process for installing a fabricated flooring system comprising the steps of:

s1, splicing the frameworks 1.

Referring to fig. 5, a positioning device 6 is firstly installed on a wall of a room, the height of an installation frame 11 is positioned by the positioning device 6, the height of a single installation frame 11 is adjusted through an adjusting screw 121, and a plurality of installation frames 11 are spliced, so that a framework 1 is formed;

wherein, positioner 6 includes mounting bracket 61 and mounting rail 62, and mounting bracket 61 is used for connecting the wall body, and mounting rail 62 is the level, and mounting bracket 61 respectively is provided with two in mounting rail 62 length direction's both sides, and all is provided with the drive assembly 7 that is used for driving mounting rail 62 to go up and down on two mounting brackets 61. The mounting rail 62 is provided with two side by side along the horizontal direction, and mounting bracket 61 corresponds the setting with mounting rail 62, all slides along its length direction on two mounting rails 62 and is provided with the piece of sliding 63, is connected with connecting rod 8 and locating line 9 between two pieces of sliding 63, and connecting rod 8 and locating line 9 are the level, and locating line 9 is located the below of connecting rod 8.

The mounting rail 62 vertically slides on the mounting frame 61 through the cooperation of a slide block provided on the mounting frame 61 and a slide groove provided on the mounting frame 61. The driving assembly 7 comprises a screw rod 71 and a hand wheel 72, the screw rod 71 is vertical, two ends of the screw rod 71 are rotatably erected on the mounting frame 61 through bearings, the screw rod 71 penetrates through the sliding block of the mounting rail 62 and is in threaded connection with the sliding block of the mounting rail 62, and the hand wheel 72 is fixed at the upper end of the screw rod 71.

Meanwhile, the connecting rod 8 is a telescopic rod, the connecting rod 8 comprises an outer cylinder 81 and an inner rod 82 coaxially penetrating the outer cylinder 81, one ends of the outer cylinder 81 and the inner rod 82, which deviate from each other, are respectively and spherically hinged to the two sliding blocks 63, and a level meter 811 is fixedly arranged at the upper side position of one side of the outer cylinder 81, which deviates from the corresponding sliding block 63.

Specifically, two groups of mounting frames 61 are firstly mounted on two opposite walls respectively, the mounting frames 61 can be locked on the walls by bolts, and the height consistency between the mounting frames 61 can be adjusted and made by means of a scale and a level meter. Then, the inner rod 82 and the outer tube 81 are assembled into the connecting rod 8, and the two sliding blocks 63 are slidably mounted on the two slide rails, respectively. Subsequently, the handle of each drive assembly 7 and the screw 71 can be turned and assisted by a level 811, adjusting the height and levelness of the connecting rod 8 and the positioning wire 9, and adjusting the height of the positioning wire 9 to the design height of the mounting frame 11.

In the installation of the installation frame 11, the connecting rod 8 can be pulled to slide, the positioning line 9 is positioned at the installation frame 11 to be installed, the installation frame 11 is positioned, and the installation frame 11 is adjusted, so that the upper side of the installation frame 11 is abutted against the positioning line 9. In this way, the mounting of each mounting frame 11 is completed.

It should be noted that, after the positioning device 6 is installed on a wall, two ends of the positioning line 9 are spaced from corresponding walls respectively, so as to avoid the coaming 5 and the blocking plate 51 at the edge of the framework 1, which is helpful for ensuring the normal positioning operation of the positioning line 9 on each installation frame 11.

S2, mounting the support plate 2.

Referring to fig. 2 and 5, after the height adjustment of the mounting frames 11 is completed, the support plates 2 may be sequentially inserted into the mounting grooves 111 of each mounting frame 11, and then the fixing plates 4 may be installed between two adjacent mounting frames 11, such that one side of the fixing plate 4, which is close to the corresponding support plate 2, is inserted into the connecting grooves 21 of the support plate 2, so that the support plate 2 is tiled on the upper side of the frame 1, and the support plate 2 is fixed to the mounting frame 11.

S3, assembling the floor 3.

The handle of each driving assembly 7 and the screw rod 71 are rotated first, and assisted by a level 811, the height and levelness of the connecting rod 8 and the positioning wire 9 are adjusted, and the height of the positioning wire 9 is adjusted to the design height of the floor 3.

Then glue is applied to the bottom surface of the floor 3, the floor 3 is sequentially laid inwards from the peripheral side edge of the framework 1, and one side, close to the stabilizing groove 52, of the floor 3 at the edge of the framework 1 is embedded into the stabilizing groove 52. Meanwhile, when each floor 3 is installed, the connecting rod 8 is pulled, so that the positioning line 9 is positioned at the position of the floor 3 to be installed, and the installation of the floor 3 is positioned, thereby completing the smooth laying of the floor 3.

Wherein, when the installation of the floor 3 to be installed is hindered by the connection plate 33 between the adjacent installed floors 3, the hard sheet 100 (see fig. 4) can be firstly inclined between the installed floors 3 and the floor 3 to be installed, the floor 3 to be installed is guided, then the floor 3 to be installed is pressed downwards, and as the floor 3 to be installed is pressed downwards, the hard sheet 100 is changed from the inclined state to the vertical state, and the connection plate 33 is pressed so that the connection plate 33 enters the installed floor 3 or the caulking groove 31 on the floor 3 to be installed; when the floors 3 to be installed are placed in the corresponding installation positions, the hard sheet 100 is pulled out, the elastic piece 32 pushes the connecting plate 33, and the two opposite sides of the connecting plate 33 are respectively embedded into the caulking grooves 31 of the two adjacent floors 3.

It is also possible to press the connection plate 33 into the caulking groove 31 of the floor panel 3 to be installed first, and to maintain the state of the connection plate 33 in the caulking groove 31, and then to install the floor panel 3 to be installed. After the floor 3 to be installed enters the installation position, the elastic piece 32 on the floor 3 to be installed pushes the connecting plate 33, and two opposite sides of the connecting plate 33 are respectively embedded into the caulking grooves 31 of two adjacent floors 3.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (4)

1. An installation process of a fabricated floor system, wherein the fabricated floor system comprises a framework (1), a supporting plate (2) arranged on the framework (1), and a floor (3) arranged on the supporting plate (2), and is characterized in that: the side surfaces of two adjacent floors (3) close to each other are provided with caulking grooves (31), each caulking groove (31) is internally provided with an elastic piece (32), a connecting plate (33) is arranged between the two adjacent floors (3), two opposite sides of the connecting plate (33) are respectively embedded into the caulking grooves (31) of the two adjacent floors (3), and the depth of each caulking groove (31) is larger than the width of the connecting plate (33);

the elastic piece (32) is a rubber strip, and the length direction of the rubber strip is parallel to the length direction of the caulking groove (31);

the periphery of the framework (1) is abutted to a room wall, a plurality of floors (3) are sequentially distributed on the framework (1) and completely cover the whole room, a coaming (5) is vertically fixed at the periphery of the upper side of the framework (1), a blocking plate (51) is fixedly arranged on the inner side of the upper side of the coaming (5), a stabilizing groove (52) is formed among the blocking plate (51), the coaming (5) and the edges of the framework (1), and one side, close to the stabilizing groove (52), of the floors (3) at the edges of the framework (1) is embedded into the stabilizing groove (52);

the framework (1) comprises a mounting frame (11), an adjusting screw (121) and a foot seat (122) are arranged below the mounting frame (11), the adjusting screw (121) is vertically arranged, the upper end of the adjusting screw (121) is fixed on the mounting frame (11), the lower end of the adjusting screw (121) is screwed into the foot seat (122), a plurality of adjusting screws (121) are arranged on the mounting frame (11), and the foot seats (122) are in one-to-one correspondence with the adjusting screws (121);

the framework (1) comprises a plurality of mounting frames (11), and the adjusting screw rods (121) and the foot seats (122) are arranged corresponding to the mounting frames (11); the mounting frames (11) are provided with mounting grooves (111), the supporting plates (2) are embedded into the mounting grooves (111), a fixing plate (4) is arranged between any two adjacent mounting frames (11), and two sides of each fixing plate (4) are respectively and fixedly connected with edge positions of two adjacent mounting frames (11);

the edge position of the supporting plate (2) close to the fixing plate (4) is provided with a connecting groove (21), one side of the fixing plate (4) close to the supporting plate (2) extends to the supporting plate (2) and is embedded into the connecting groove (21), and the side surface of the fixing plate (4) is equal to the upper side surface of the supporting plate (2);

the method is characterized in that:

comprises the following steps of the method,

the framework (1) is spliced, a plurality of installation frames (11) are spliced, and the height of each installation frame (11) is adjusted through an adjusting screw (121) and a foot seat (122), so that the framework (1) is formed;

the support plate (2) is arranged, the support plate (2) is arranged on the upper side of the framework (1), and the support plate (2) is fixed on the framework (1);

the floor (3) is assembled, the floor (3) is paved inwards from the peripheral edge of the framework (1) in sequence, and one side, close to the stabilizing groove (52), of the floor (3) positioned at the edge of the framework (1) is embedded into the stabilizing groove (52); when the floor (3) to be installed is blocked by the connecting plates (33) between the adjacent installed floors (3) in the installation process, the corresponding connecting plates (33) can be pressed into the floor (3) to be installed or the embedded grooves (31) of the installed floors (3), then the floor (3) to be installed is placed at the corresponding installation position, and then the elastic pieces (32) push the connecting plates (33), so that two opposite sides of the connecting plates (33) are respectively embedded into the embedded grooves (31) of the two adjacent floors (3);

in the splicing step of the framework (1), a positioning device (6) is firstly arranged on a wall body of a room, and the positioning device (6) is used for positioning the height adjustment of the installation frame (11);

the positioning device (6) comprises two parallel mounting rails (62) arranged at intervals and a connecting rod (8) connected between the two mounting rails (62), the two mounting rails (62) are horizontally arranged, sliding blocks (63) are respectively arranged at two ends of the connecting rod (8), and the two sliding blocks (63) are respectively connected to the two mounting rails (62) in a sliding manner;

a positioning line (9) is further arranged between the two sliding blocks (63), two ends of the positioning line (9) are respectively fixed on the two sliding blocks (63), and the height of the positioning line (9) is lower than that of the connecting rod (8);

when the mounting frame (11) is positioned, leveling and heightening are carried out on the two mounting rails (62) so that the positioning line (9) is horizontal, the height of the positioning line (9) is adjusted to be the design height of the upper side of the mounting frame (11), and the two mounting rails (62) are respectively mounted on two opposite side walls of a room; then, the sliding block (63) is positioned by the positioning line (9) for height adjustment of each mounting frame (11).

2. A process for installing a modular flooring system according to claim 1, wherein: two mounting rails (62) are connected with mounting frames (61) used for being mounted on a wall of a room, each mounting rail (62) is arranged on the corresponding mounting frame (61) in a sliding mode along the vertical direction, and driving assemblies (7) used for driving the mounting rails (62) to slide are arranged on the mounting frames (61).

3. A process for installing a modular flooring system according to claim 2, wherein: the driving assembly (7) comprises a screw rod (71), the screw rod (71) is vertically arranged and rotatably arranged on the mounting frame (61), and the screw rod (71) penetrates through the mounting rail (62) and is in threaded connection with the mounting rail (62).

4. A process for installing a modular flooring system according to claim 1, wherein: the connecting rod (8) is a telescopic rod, and two ends of the telescopic rod are respectively and spherically hinged to the two sliding blocks (63).